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Volume 11, issue 15
Atmos. Chem. Phys., 11, 7561–7582, 2011
© Author(s) 2011. This work is distributed under
the Creative Commons Attribution 3.0 License.

Special issue: POLARCAT (Polar Study using Aircraft, Remote Sensing, Surface...

Atmos. Chem. Phys., 11, 7561–7582, 2011
© Author(s) 2011. This work is distributed under
the Creative Commons Attribution 3.0 License.

Research article 01 Aug 2011

Research article | 01 Aug 2011

Absorbing aerosol in the troposphere of the Western Arctic during the 2008 ARCTAS/ARCPAC airborne field campaigns

C. S. McNaughton1, A. D. Clarke1, S. Freitag1, V. N. Kapustin1, Y. Kondo2, N. Moteki2, L. Sahu2, N. Takegawa2, J. P. Schwarz3, J. R. Spackman3, L. Watts3, G. Diskin4, J. Podolske5, J. S. Holloway3, A. Wisthaler6, T. Mikoviny6, J. de Gouw3, C. Warneke3,7, J. Jimenez7, M. Cubison7, S. G. Howell1, A. Middlebrook3, R. Bahreini3, B. E. Anderson4, E. Winstead4, K. L. Thornhill4, D. Lack3, J. Cozic3, and C. A. Brock3 C. S. McNaughton et al.
  • 1School of Ocean and Earth Science and Technology, University of Hawaii, Honolulu, HI, USA
  • 2Research Center for Advanced Science and Technology, University of Tokyo, Tokyo, Japan
  • 3Chemical Sciences Division, NOAA Earth System Research Laboratory, Boulder, CO, USA
  • 4NASA Langley Research Center, Hampton, VA, USA
  • 5NASA Ames Research Center, Moffett Field, CA, USA
  • 6Institute of Ion Physics and Applied Physics, University of Innsbruck, Innsbruck, Austria
  • 7Cooperative Institute for Research in Environmental Sciences (CIRES) University of Colorado, Boulder, CO, USA

Abstract. In the spring of 2008 NASA and NOAA funded the ARCTAS and ARCPAC field campaigns as contributions to POLARCAT, a core IPY activity. During the campaigns the NASA DC-8, P-3B and NOAA WP-3D aircraft conducted over 160 h of in-situ sampling between 0.1 and 12 km throughout the Western Arctic north of 55° N (i.e. Alaska to Greenland). All aircraft were equipped with multiple wavelength measurements of aerosol optics, trace gas and aerosol chemistry measurements, as well as direct measurements of the aerosol size distributions and black carbon mass. Late April of 2008 proved to be exceptional in terms of Asian biomass burning emissions transported to the Western Arctic. Though these smoke plumes account for only 11–14 % of the samples within the Western Arctic domain, they account for 42–47 % of the total burden of black carbon. Dust was also commonly observed but only contributes to 4–12 % and 3–8 % of total light absorption at 470 and 530 nm wavelengths above 6 km. Below 6 km, light absorption by carbonaceous aerosol derived from urban/industrial and biomass burning emissions account for 97–99 % of total light absorption by aerosol. Stratifying the data to reduce the influence of dust allows us to determine mass absorption efficiencies for black carbon of 11.2±0.8, 9.5±0.6 and 7.4±0.7 m2 g−1 at 470, 530 and 660 nm wavelengths. These estimates are consistent with 35–80 % enhancements in 530 nm absorption due to clear or slightly absorbing coatings of pure black carbon particulate. Assuming a 1/λ wavelength dependence for BC absorption, and assuming that refractory aerosol (420 °C, τ = 0.1 s) in low-dust samples is dominated by brown carbon, we derive mass absorption efficiencies for brown carbon of 0.83±0.15 and 0.27±0.08 m2 g−1 at 470 and 530 nm wavelengths. Estimates for the mass absorption efficiencies of Asian dust are 0.034 m2 g−1 and 0.017 m2 g−1. However the absorption efficiency estimates for dust are highly uncertain due to the limitations imposed by PSAP instrument noise. In-situ ARCTAS/ARCPAC measurements during the IPY provide valuable constraints for absorbing aerosol over the Western Arctic, species which are currently poorly simulated over a region that is critically under-sampled.

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